Methods, apparatus and computer program products are provided for receiving a first group of resource blocks, frequency multiplexed in a transmission subframe, where the first group of resource blocks spans less than a full transmission bandwidth and includes a UE control channel in a first time interval, a relay control channel and a first quantity of dedicated reference symbols in a second time interval, and a shared data channel and a second quantity of dedicated reference symbols in a third time interval.This Abstract is provided for the sole purpose of complying with the Abstract requirement rules that allow a reader to quickly ascertain the disclosed subject matter. Therefore, it is to be understood that it should not be used to interpret or limit the scope or the meaning of the claims.
Legal claims defining the scope of protection, as filed with the USPTO.
1. A method, comprising: receiving a first plurality of resource blocks, frequency multiplexed in a transmission subframe, wherein the first plurality of resource blocks spans less than a full transmission bandwidth, wherein the first plurality of resource blocks comprises a user equipment (UE) control channel in a first time interval spanning three OFDM symbols, a relay control channel and a first plurality of dedicated reference symbols in a second time interval following the first time interval and spanning four OFDM symbols, and a shared data channel and a second plurality of dedicated reference symbols in a third time interval, and wherein the first plurality of resource blocks lacks a shared data channel in the second time interval; decoding relay control information from the relay control channel; decoding relay data and user data from the shared data channel; and receiving a second plurality of resource blocks in the transmission subframe, the second plurality of resource blocks frequency multiplexed with the first plurality of resource blocks and comprising a shared data channel in the second and third time intervals, wherein at least two of the first plurality of dedicated reference symbols in the second time interval are mapped to time-adjacent symbols, and at least two of the second plurality of dedicated reference symbols in the third time interval are mapped to time-adjacent symbols.
2. The method of claim 1 , wherein the second time interval further comprises a plurality of common reference symbols configured to decode the relay control information from the relay control channel.
3. The method of claim 2 , wherein the first plurality of dedicated reference symbols is configured to decode the relay data from the shared data channel.
4. The method of claim 3 , wherein the second plurality of dedicated reference symbols is configured to decode the relay data from the shared data channel.
5. The method of claim 1 , wherein the first plurality of dedicated reference symbols and the second plurality of dedicated reference symbols are configured to support a multi-layer transmission mode.
6. The method of claim 1 , wherein the first plurality and second plurality of dedicated reference symbols are scrambled and power-controlled to match dedicated reference symbols in resource blocks without relay control channels.
7. The method of claim 1 , wherein the first plurality of dedicated reference symbols is configured to decode the relay control information from the relay control channel and the second plurality of dedicated reference symbols is configured to decode the relay data from the shared data channel.
8. The method of claim 1 , wherein the first plurality and the second plurality of dedicated reference symbols are configured to decode the relay control information from the relay control channel.
9. The method of claim 1 , wherein the first plurality and the second plurality of dedicated reference symbols are configured to decode the relay data from the shared data channel.
10. The method of claim 1 , wherein the first plurality of dedicated reference symbols is configured to decode the relay control information from the relay control channel in a first spatial layer, and the second plurality of dedicated reference symbols is configured to decode the relay data from the shared data channel in a second spatial layer.
11. The method of claim 1 , further comprising forwarding UE control information and the user data to a user equipment.
12. The method of claim 1 , wherein the first plurality of resource blocks and the second plurality of resource blocks jointly span the full transmission bandwidth, and wherein a power level of selected resource elements in the second time interval of the first plurality of resource blocks is controlled to equalize a power spectral density across OFDM symbols in the first time interval, the second time interval and the third time interval.
13. A relay node, comprising: means for receiving a first plurality of resource blocks, frequency multiplexed in a transmission subframe, wherein the first plurality of resource blocks spans less than a full transmission bandwidth, wherein the first plurality of resource blocks comprises a UE control channel in a first time interval spanning three OFDM symbols, a relay control channel and a first plurality of dedicated reference symbols in a second time interval following the first time interval and spanning four OFDM symbols, and a shared data channel and a second plurality of dedicated reference symbols in a third time interval, and wherein the first plurality of resource blocks lacks a shared data channel in the second time interval; means for decoding relay control information from the relay control channel; means for decoding relay data and user data from the shared data channel; and means for receiving a second plurality of resource blocks in the transmission subframe, the second plurality of resource blocks frequency multiplexed with the first plurality of resource blocks and comprising a shared data channel in the second and third time intervals, wherein at least two of the first plurality of dedicated reference symbols in the second time interval are mapped to time-adjacent symbols, and at least two of the second plurality of dedicated reference symbols in the third time interval are mapped to time-adjacent symbols.
14. The relay node of claim 13 , wherein the first plurality of resource blocks and the second plurality of resource blocks jointly span the full transmission bandwidth, and wherein a power level of selected resource elements in the second time interval of the first plurality of resource blocks is controlled to equalize a power spectral density across OFDM symbols in the first time interval, the second time interval and the third time interval.
15. A non-transitory computer-readable storage medium, comprising: program code for receiving a first plurality of resource blocks, frequency multiplexed in a transmission subframe, wherein the first plurality of resource blocks spans less than a full transmission bandwidth, wherein the first plurality of resource blocks comprises a UE control channel in a first time interval spanning three OFDM symbols, a relay control channel and a first plurality of dedicated reference symbols in a second time interval following the time interval and spanning four OFDM symbols, and a shared data channel and a second plurality of dedicated reference symbols in a third time interval, and wherein the first plurality of resource blocks lacks a shared data channel in the second time interval; program code for decoding relay control information from the relay control channel; program code for decoding relay data and user data from the shared data channel; and program code for receiving a second plurality of resource blocks in the transmission subframe, the second plurality of resource blocks frequency multiplexed with the first plurality of resource blocks and comprising a shared data channel in the second and third time intervals, wherein at least two of the first plurality of dedicated reference symbols in the second time interval are mapped to time-adjacent symbols, and at least two of the second plurality of dedicated reference symbols in the third time interval are mapped to time-adjacent symbols.
16. The non-transitory computer-readable storage medium of claim 15 , wherein the first plurality of resource blocks and the second plurality of resource blocks jointly span the full transmission bandwidth, and wherein a power level of selected resource elements in the second time interval of the first plurality of resource blocks is controlled to equalize a power spectral density across OFDM symbols in the first time interval, the second time interval and the third time interval.
17. A relay node, comprising: a processor; and a memory comprising processor executable instructions that, when executed by the processor, configures the relay node to: receive a first plurality of resource blocks, frequency multiplexed in a transmission subframe, wherein the first plurality of resource blocks spans less than a full transmission bandwidth, wherein the first plurality of resource blocks comprises a UE control channel in a first time interval spanning three OFDM symbols, a relay control channel and a first plurality of dedicated reference symbols in a second time interval following the first time interval and spanning four OFDM symbols, and a shared data channel and a second plurality of dedicated reference symbols in a third time interval, and wherein the first plurality of resource blocks lacks a shared data channel in the second time interval; decode relay control information from the relay control channel; decode relay data and user data from the shared data channel; and receive a second plurality of resource blocks in the transmission subframe, the second plurality of resource blocks frequency multiplexed with the first plurality of resource blocks and comprising a shared data channel in the second and third time intervals, wherein at least two of the first plurality of dedicated reference symbols in the second time interval are mapped to time-adjacent symbols, and at least two of the second plurality of dedicated reference symbols in the third time interval are mapped to time-adjacent symbols.
18. The relay node of claim 17 , wherein the first plurality of resource blocks and the second plurality of resource blocks jointly span the full transmission bandwidth, and wherein a power level of selected resource elements in the second time interval of the first plurality of resource blocks is controlled to equalize a power spectral density across OFDM symbols in the first time interval, the second time interval and the third time interval.
19. A method, comprising: transmitting a first plurality of resource blocks, frequency multiplexed in a transmission subframe, wherein the first plurality of resource blocks spans less than a full transmission bandwidth, wherein the first plurality of resource blocks comprises a UE control channel in a first time interval spanning three OFDM symbols, a relay control channel and a first plurality of dedicated reference symbols in a second time interval following the first time interval and spanning four OFDM symbols, and a shared data channel and a second plurality of dedicated reference symbols in a third time interval, wherein the relay control channel comprises relay control information and the shared data channel comprises relay data and user data, and wherein the first plurality of resource blocks lacks a shared data channel in the second time interval; and transmitting a second plurality of resource blocks in the transmission subframe, the second plurality of resource blocks frequency multiplexed with the first plurality of resource blocks and comprising a shared data channel in the second and third time intervals, wherein at least two of the first plurality of dedicated reference symbols in the second time interval are mapped to time-adjacent symbols, and at least two of the second plurality of dedicated reference symbols in the third time interval are mapped to time-adjacent symbols.
20. The method of claim 19 , wherein the first plurality of resource blocks and the second plurality of resource blocks jointly span the full transmission bandwidth, and wherein a power level of selected resource elements in the second time interval of the first plurality of resource blocks is controlled to equalize a power spectral density across OFDM symbols in the first time interval, the second time interval and the third time interval.
21. A base station, comprising: means for transmitting a first plurality of resource blocks, frequency multiplexed in a transmission subframe, wherein the first plurality of resource blocks spans less than a full transmission bandwidth, wherein the first plurality of resource blocks comprises a UE control channel in a first time interval spanning three OFDM symbols, a relay control channel and a first plurality of dedicated reference symbols in a second time interval following the first time interval and spanning four OFDM symbols, and a shared data channel and a second plurality of dedicated reference symbols in a third time interval, wherein the relay control channel comprises relay control information and the shared data channel comprises relay data and user data, and wherein the first plurality of resource blocks lacks a shared data channel in the second time interval; and means for transmitting a second plurality of resource blocks in the transmission subframe, the second plurality of resource blocks frequency multiplexed with the first plurality of resource blocks and comprising a shared data channel in the second and third time intervals.
22. The base station of claim 21 , wherein the first plurality of resource blocks and the second plurality of resource blocks jointly span the full transmission bandwidth, and wherein a power level of selected resource elements in the second time interval of the first plurality of resource blocks is controlled to equalize a power spectral density across OFDM symbols in the first time interval, the second time interval and the third time interval.
23. A non-transitory computer-readable storage medium, comprising: program code for transmitting a first plurality of resource blocks, frequency multiplexed in a transmission subframe, wherein the first plurality of resource blocks spans less than a full transmission bandwidth, wherein the first plurality of resource blocks comprises a UE control channel in a first time interval spanning three OFDM symbols, a relay control channel and a first plurality of dedicated reference symbols in a second time interval following the first time interval and spanning four OFDM symbols, and a shared data channel and a second plurality of dedicated reference symbols in a third time interval, wherein the relay control channel comprises relay control information and the shared data channel comprises relay data and user data, and wherein the first plurality of resource blocks lacks a shared data channel in the second time interval; and program code for transmitting a second plurality of resource blocks in the transmission subframe, the second plurality of resource blocks frequency multiplexed with the first plurality of resource blocks and comprising a shared data channel in the second and third time intervals, wherein at least two of the first plurality of dedicated reference symbols in the second time interval are mapped to time-adjacent symbols, and at least two of the second plurality of dedicated reference symbols in the third time interval are mapped to time-adjacent symbols.
24. The non-transitory computer-readable storage medium of claim 23 , wherein the first plurality of resource blocks and the second plurality of resource blocks jointly span the full transmission bandwidth, and wherein a power level of selected resource elements in the second time interval of the first plurality of resource blocks is controlled to equalize a power spectral density across OFDM symbols in the first time interval, the second time interval and the third time interval.
25. A base station, comprising: a processor; and a memory comprising processor executable instructions that, when executed by the processor, configures the base station to: transmit a first plurality of resource blocks, frequency multiplexed in a transmission subframe, wherein the first plurality of resource blocks spans less than a full transmission bandwidth, wherein the first plurality of resource blocks comprises a UE control channel in a first time interval spanning three OFDM symbols, a relay control channel and a first plurality of dedicated reference symbols in a second time interval following the first time interval and spanning four OFDM symbols, and a shared data channel and a second plurality of dedicated reference symbols in a third time interval, wherein the relay control channel comprises relay control information and the shared data channel comprises relay data and user data, and wherein the first plurality of resource blocks lacks a shared data channel in the second time interval; and transmit a second plurality of resource blocks in the transmission subframe, the second plurality of resource blocks frequency multiplexed with the first plurality of resource blocks and comprising a shared data channel in the second and third time intervals.
26. The base station of claim 25 , wherein the first plurality of resource blocks and the second plurality of resource blocks jointly span the full transmission bandwidth, and wherein a power level of selected resource elements in the second time interval of the first plurality of resource blocks is controlled to equalize a power spectral density across OFDM symbols in the first time interval, the second time interval and the third time interval.
Cooperative Patent Classification codes for this invention. Click any code to explore related patents in that topic.
November 1, 2010
December 1, 2015
Browse 5M+ US patents with plain-English claim translations and AI-generated analysis.